A tilt window having sash with an internal screen that deploys when the sash is opened and retracted when the sash is closed with a cleaning mechanism in the form of a brush lined slot engaging the screen as it moves into and out of the sash receptacle.

A fenestration assembly includes a sash, a frame surrounding the sash, and at least one screen assembly mounted in at least one of: the top portion and the bottom portion. The frame includes a top portion, a bottom portion, and two jambs forming first slots extending lengthwise along at least a portion of the jamb. The first slots each include a screen edge retention feature. The screen assembly includes a roller assembly substantially hidden from view, a screen material attached to the roller assembly, and a plurality of raised features. Edges of the screen material extend into the first slots. The raised features are attached to each of the edges of the screen material. The raised features are configured to engage the screen edge retention features and retain each of the edges of the screen material at least partially within the first slot of each of the two jambs.

A window assembly having a first sash and a second sash mounted to a window frame, the first and second sashes arranged along different vertical planes within the window frame to resemble the appearance of a double hung window. The window assembly further includes a hinge mechanism coupled to the window frame, the hinge mechanism operable to guide the first and second sashes away from the window frame to accommodate an outwardly swinging motion of the sashes in a similar fashion as a conventional awning window.

A latch assembly for a fenestration assembly includes a keeper ridge configured for coupling with a fenestration frame. An assembly housing is configured for coupling with a rail of a sash, including upper or lower rails opposed to a check rail of the sash. A latch mechanism is movably coupled with the assembly housing. The latch mechanism is at least partially concealed with the rail. The latch mechanism includes a handle pivotally coupled with the assembly housing and a latch arm pivotally coupled with the assembly housing and operatively coupled with the handle. The latch arm includes a locking face configured for alignment with the keeper ridge.

A window balance assembly may include a carrier, a spring element, and a mounting bracket. The spring element may include first and second portions. The first portion may be coupled to the carrier. The mounting bracket may engage the second portion of the spring element and may selectively engage the carrier.

Disclosed are novel forms of operable and fixed windows capable of at least one or more of: producing an electrical current utilizing a transparent or semi-transparent solar collecting coating or film on a pane, and selectively changing one or more of opacity and tint of one or more electrochromatic layers in the window. Some embodiments disclose a scaffold assembly to enclose the perimeter of the substrate and one or more transparent solar cells or electrochromatic layers, or transparent solar cells and electrochromatic layers. Various structural and electrical configurations are disclosed satisfying kinematic demands of operable windows. Wired and wireless configurations of the windows are contemplated as are self-powered versions whereby the transparent solar collector or wireless power powers electrochromatic functions. Also disclosed are self-powered and self-contained glaze units with control wirelessly or from user interface controls on an indoor facing pane. Also disclosed are other smart window functions.

Systems and methods for providing a universal window frame assembly. A window frame assembly can include a plurality of frame members, wherein at least one of the frame members comprises a first profile frame member and at least one of the other frame members comprises a second profile frame member. The at least one first profile frame member and the at least one second profile frame member seat together to form the frame assembly. Head and side jamb members of a window frame can have a common first profile, and a sill jamb member can have a second profile. The frame members can be connected with corner keys configured to engage one or more openings in the first and second profiles. The sill jamb member can provide a sill slope angle.

A rain shield for an exterior architectural window may include a a generally rectangular-planar shield member. The shield may further include a pair of opposing panel members each having a clasp for engaging a window frame. The clasps may be hingedly joined to opposing sides of the shield member. Optionally, the shield member may be divided into inner and outer shield panels slideably engaging each other to form a width-adjustable structure.

A sliding window assembly including a window frame and at least three panes disposed within the window frame in offset vertical planes. The panes are arranged for sliding movement together upwardly within the window frame or together downwardly within the window frame. One or more of the panes can be fixed. The panes have a fully open position and a fully closed position. In the closed position, respective edges of the panes overlap while in the open position, the entire panes overlap. The panes can be connected to a counterweight arrangement by a pulley arrangement, which includes a vertically movable balancing weight that is equal to the weight of the panes, or the panes can be connected together to counterbalance each other.

A sash guide for a hung window includes a plate having a first end and an opposite second end defining a longitudinal axis. The first end configured to mount to a side rail of a window sash and the second end having an outside surface spaced from the side rail in a transverse direction. The transverse direction being substantially orthogonal to the longitudinal axis. A cam block is disposed proximate the second end and between the plate and the side rail. An adjustment fastener is coupled to the cam block and configured to slide the cam block along the longitudinal axis such that the outside surface of the second end is adjustable along the transverse direction and in relation to the side rail.